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Waste Handling and Environmental Monitoring
Published by Institute for Advanced Science, Social, and Sustainable Future
ISSN : -     EISSN : 30476631     DOI : https://doi.org/10.61511/whem.v1i2.2024
Core Subject : Social,
Environmental Science
Aims: WHEM aims to advance the science and practice of waste management and environmental monitoring. The journal is committed to showcasing research that addresses critical issues related to waste handling and the monitoring of environmental quality. By offering a platform for high-impact studies, WHEM seeks to contribute to the development of effective waste management strategies and robust environmental monitoring practices. Focus: The journal centers on research that improves understanding and practices related to waste management and environmental monitoring. It highlights studies that offer innovative solutions for handling various types of waste and for monitoring environmental conditions. The focus is on research that provides practical insights and actionable recommendations for enhancing waste management systems and ensuring accurate environmental assessments. Scope: This journal seeks to publish a broad range of scholarly articles, including: 1.Advanced Waste Management Techniques: Research on innovative methods and technologies for managing different types of waste, including solid, liquid, and hazardous waste, and strategies for reducing waste generation. 2. Waste Treatment and Disposal: Studies on effective treatment and disposal practices, including recycling, composting, and waste-to-energy technologies, as well as their environmental impacts. 3. Environmental Monitoring Methods: Examination of techniques and technologies used to monitor environmental quality, including air, water, and soil monitoring, as well as the development of new monitoring tools and methodologies. 4. Impact Assessment and Management: Analysis of the environmental impacts of waste handling and monitoring activities, including risk assessment, impact mitigation strategies, and sustainability evaluations. 5. Regulations and Policy Development: Research on regulations and policies related to waste management and environmental monitoring, including compliance, enforcement, and the development of effective policies and standards. 6. Case Studies and Best Practices: Exploration of successful case studies and best practices in waste management and environmental monitoring, providing practical insights and lessons learned for improving systems and practices.
Arjuna Subject : Ilmu Lingkungan (semua ketegori) - Manajemen Limbah dan Disposal
Articles 5 Documents
 1 
Search results for , issue "Vol. 1 No. 2: (August) 2024" : 5 Documents clear
Microplastic as an written composition in bottled water: Implications for waste management Kurniawan, Aprilian
Waste Handling and Environmental Monitoring Vol. 1 No. 2: (August) 2024
Publisher : Institute for Advanced Science, Social, and Sustainable Future

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.61511/whem.v1i2.2024.1157

Abstract

Background: Microplastics are the smallest particles of plastic measuring about 4.8 milliliters and are dangerous to the body due to the chemicals they contain, such as PCBs (Polychlorinated Biphenyls). Microplastics have been identified in various studies, both in aquatic and terrestrial environments, raising concerns about contamination in seafood, beverages (like beer), and more recently, bottled mineral water. Methods: This publication compiles and discusses currently available literature data on microplastic particles found in bottled mineral water. Findings: The discovery of microplastics in bottled mineral water highlights the widespread contamination of microplastics in consumable products, emphasizing the importance of water intake for supporting body metabolism. Conclusion: The identification of microplastics in bottled mineral water underscores the need for greater awareness of the dangers of microplastic contamination and its potential health risks. Novelty/Originality of this article: This article uniquely highlights the underexplored presence of microplastics in bottled mineral water, emphasizing the health risks associated with chemical contaminants like PCBs, and calls for increased awareness and regulatory measures to protect consumer safety.
Karakteristik limbah pertanian dan dampaknya: Mengapa pengelolaan ramah lingkungan penting? Arista, Nor Isnaeni Dwi
Waste Handling and Environmental Monitoring Vol. 1 No. 2: (August) 2024
Publisher : Institute for Advanced Science, Social, and Sustainable Future

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.61511/whem.v1i2.2024.1204

Abstract

Background: Agricultural waste is a significant by-product of the agrarian sector, with the potential for substantial environmental and economic impacts. This study aims to examine the characteristics of organic agricultural waste and analyze its effects on the environment, both in terms of threats and its potential utilization. Method: This study employs a systematic literature review method. The literature search focuses on articles discussing agricultural waste, its characteristics, and its environmental impacts. Findings: The results show that agricultural waste has diverse characteristics based on fiber composition, physical form, and protein content. The main threats from agricultural waste include water pollution due to nutrient runoff and greenhouse gas emissions, especially methane. However, this waste also holds significant potential as a source of organic mulch, animal feed, and raw material for bioenergy. Utilizing agricultural waste as mulch can improve soil quality and crop yields, while its use as animal feed supports the integration of agricultural and livestock systems. In the context of energy, converting waste into biogas and biofuel offers an effective solution. Conclusion: This study emphasizes the importance of integrated and sustainable agricultural waste management to minimize negative impacts and optimize its economic potential. Novelty/Originality of this article: By providing a comprehensive analysis of the characteristics and impacts of agricultural waste, this study offers insights into the importance of a holistic approach to agricultural waste management to support sustainable agriculture.
Spatial analysis of zinc (Zn) heavy metal distribution in the waters of Staring Bay, Southeast Sulawesi Wildayati; Armid; Takwir, Amadhan
Waste Handling and Environmental Monitoring Vol. 1 No. 2: (August) 2024
Publisher : Institute for Advanced Science, Social, and Sustainable Future

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.61511/whem.v1i2.2024.1206

Abstract

Background: A spatial study of the distribution of heavy metal zinc (Zn) in the waters of Staring Bay, Southeast Sulawesi, has been conducted. This research aims to determine the spatial distribution of heavy metal Zn in the waters of Staring Bay. Methods: Sampling was carried out at 12 stations in the bay using a purposive sampling method. The concentration of heavy metal Zn in seawater samples was determined using an Atomic Absorption Spectrophotometer (AAS). Spatial analysis was performed using the Inverse Distance Weight (IDW) interpolation method (power = 2) with data processing software (ArcGIS 10.1). Findings: The results of the study indicate that the Zn metal concentration at the 12 research stations ranges from 0.0141 to 0.2085 ppm, with an average of 0.0668 ppm. The highest concentration of Zn metal is found at station 1. The results of the spatial analysis, with 12 stations, show that the area from the open sea to the coast of Tanjung Tiram Village has been contaminated with Zn heavy metal, ranging from 0.0132 to 0.2085 ppm. The same contamination is observed in the northern part of Wawosunggu Island, from the river mouth near Rumbia-rumbia Village to Lara Island, which has also been contaminated with a range of 0.0572 to 0.2085 ppm. Conclusion: Based on the contaminant factor (CF) values, the highest contamination by Zn metal occurs at station 1. Environmental variables (salinity, pH, temperature) show no significant effect on the concentration of Zn heavy metal. Novelty/Originality of this article: This study provides a comprehensive spatial analysis of zinc (Zn) contamination in Staring Bay, highlighting critical areas of pollution. It uniquely employs the Inverse Distance Weight interpolation method, revealing significant contamination patterns with minimal influence from environmental variables.
Evaluation of waste composition for biochar production as a sustainable waste management approach Putri, Aurellia Nur Islami
Waste Handling and Environmental Monitoring Vol. 1 No. 2: (August) 2024
Publisher : Institute for Advanced Science, Social, and Sustainable Future

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.61511/whem.v1i2.2024.1219

Abstract

Background: To meet human life needs, fuel energy is obtained from fossil sources, such as coal, found in the Earth's crust. However, non-renewable energy sources in the Earth's crust will eventually run out. One alternative fuel is the production of biobriquettes from various types of waste. Methods: Using a literature review method, this study aims to determine which waste is most suitable for use in the production of biobriquettes. The samples taken are journals sourced from Google Scholar ranging from 2017 to 2022 that align with the discussion topic. Findings: Among various raw materials, the best waste for biobriquette production is found to be a mixture of dacron waste and corn cob, with a moisture content of 3.45% and a carbon value of 7986.45 cal/g. Conclusion: The results of the above study indicate that the production of biobriquettes from dakron waste and corn cobs is the best option because it yields the highest calorific value and the lowest moisture content, in accordance with SNI 01/6235/2000. Novelty/Originality of this article: This study presents a novel approach by identifying a specific combination of dacron waste and corn cob for biobriquette production, showcasing its superior calorific value and low moisture content, thus contributing to sustainable energy solutions and waste management practices.
Potensi precision farming dalam penerapan prinsip reduce untuk mengurangi limbah sumber daya pertanian Undari, Desti; Arista, Nor Isnaeni Dwi
Waste Handling and Environmental Monitoring Vol. 1 No. 2: (August) 2024
Publisher : Institute for Advanced Science, Social, and Sustainable Future

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.61511/whem.v1i2.2024.1239

Abstract

Background: The increase in agricultural production is often accompanied by excessive use of chemical inputs, contributing to environmental pollution. Precision farming is a modern approach that can address this challenge by optimizing input use through advanced technology. This paper explores the application of the reduce principle in precision farming to support efficient use of fertilizers and other resources. Method: The method used is a literature review of various published studies related to precision farming and agricultural land management. Findings: The application of the reduce principle in fertilization activities with precision farming can reduce fertilizer waste by up to 50%, increase land productivity by 10%, and minimize harmful environmental effects, such as groundwater pollution and greenhouse gas emissions. Precision farming also improves irrigation efficiency through precision irrigation technology. Conclusion: This study confirms that applying precision farming with a focus on the reduce principle not only supports sustainable agriculture but also provides economic benefits for farmers by reducing production costs. Innovations in precision farming technology, such as the integration of AI-based sensors and IoT, further enhance potential efficiencies in the future. Novelty/Originality of this article: Emphasizing the use of the reduce principle in precision farming as a primary strategy to achieve more efficient and environmentally friendly agriculture aligns with the goals outlined in the Sustainable Development Goals (SDGs) for responsible production.

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